Space Weather and Aviation Impacts...Space Weather 101 Weather originating from the Sun and...

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Space Weather and Aviation Impacts

Char Dewey

NOAA/National Weather Service Salt Lake City, UT@DeweyWxcharlotte.dewey@noaa.gov IWAWS 2020

Space Weather and Aviation Impacts

What is space weather?

How space weather affects Earth and aviation; hazards and impacts

How to monitor conditions and be space weather-aware

Space Weather 101

Space Weather 101

Weather originating from the Sun and traveling the 93 million miles to reach Earth and our atmosphere, interacting

with systems on and orbiting Earth.

Observations come from satellite sources with instruments

that monitor space weather.

Model data (some now operational!) developing.

Coronal Mass Ejections (CME), Solar Energetic Particles

(SEP), and Solar Flares.

Active regions on the sun are where solar activity begins;

where sunspots are located on the solar disk.

Magnetic “instability” where solar storming forms.

Space Weather 101

Space Weather 101

Coronal Mass Ejections (CME)

An eruption of plasma particles and electromagnetic

radiation from the solar corona, often following solar

flares.

Originate from active regions on the Sun’s surface

(sunspots).

Very slow to reach the Earth from 12 hours to days

or a week.

Space Weather Impacts

Coronal Mass Ejections (CME)

Impacts: Geomagnetic storming compresses

Earth’s magnetosphere on the day-side,

extending night-side “tail” and reconnecting,

focusing energy at the poles and resulting in

Aurora. Increase electrons in the ionosphere at

high-latitude regions, exposing to higher

radiation values.

Space Weather 101

Solar Energetic Particles (SEP)

High-energy particles; protons, electrons

Originate from solar flare or shock wave (CME) reaching the

Earth from 20 minutes to many hours, depending the

location it leaves the solar disk.

Proton detectors on the GOES geostationary and NOAA

polar orbiting satellites.

Space Weather Impacts

Solar Energetic Particles (SEP)

Impacts: GPS receivers used by nearly every

cell phone, automobile, onboard ships,

high-precision positioning such as offshore

drilling, surveying to name a few. Radio signals

pass through ionosphere, which becomes bent

and inaccurate.

Space Weather 101

Solar Flare

Large solar flares can block HF radio

transmissions on the sunlit side of Earth.

Associated with CMEs.

Cause satellite communication and radio

navigation issues.

Duration of the entire solar flare impacts

can be from seconds to an hour or so.

Space Weather Impacts

Solar Flare

Impacts: radio communications at high

frequency (1-30 mega Hertz) on day side of

Earth

Space Weather 101

Solar Cycle: 22-year cycle

Space Weather Scales (think hurricane and tornado

intensity) from 1 (weakest) to 5 (strongest)

Radio Blackouts - R-scale (Solar flares)

Solar Radiation Storms - S-scale (particle events)

Geomagnetic Storms - G-scale (CME)

https://www.swpc.noaa.gov/noaa-scales-explanation

Hazards Impacts

High latitude flights more susceptible to effects from Space

Weather

Customers: Airlines, satellite operations, NASA, GPS

applications, power utilities, oil pipelines, FEMA, Aurora

viewing enthusiast, pigeon racers.

Space Weather Affects: Earth and Aviation

https://www.swpc.noaa.gov/

Space Weather Monitoring

https://www.swpc.noaa.gov/communities/aviation-community-dashboard

Space Weather Monitoring

Tools to benefit aviation

community for space weather

https://www.swpc.noaa.gov/

Space Weather and Aviation Impacts

Charlotte DeweyForecaster, NOAA/NWS Salt Lake City, UT

charlotte.dewey@noaa.gov@DeweyWx

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